faulty insulator

简明释义

不合格绝缘子

英英释义

例句

1.After the storm, several reports indicated that a faulty insulator was responsible for the downed power lines.

风暴过后，几份报告指出，一个故障绝缘体是导致电线倒塌的原因。

2.During the inspection, we discovered a faulty insulator that needed immediate replacement to prevent further issues.

在检查过程中，我们发现一个故障绝缘体需要立即更换，以防止进一步的问题。

3.We need to replace the faulty insulator to ensure the safety of our electrical system.

我们需要更换这个故障绝缘体以确保我们电气系统的安全。

4.The power outage was caused by a faulty insulator, which allowed electricity to leak and disrupt the supply.

停电是由于一个故障绝缘体导致的，它使电力泄漏并中断了供电。

5.The technician explained that a faulty insulator can lead to serious electrical hazards if not addressed promptly.

技术员解释说，如果不及时处理，故障绝缘体可能会导致严重的电气危险。

作文

In the modern world, electricity plays a crucial role in our daily lives. From powering our homes to running industries, we rely heavily on electrical systems. However, like any other system, electrical networks can experience problems, one of which is related to the use of insulators. A faulty insulator refers to an insulator that fails to perform its intended function of preventing the flow of electricity where it is not desired. This failure can lead to serious consequences, including electrical outages, equipment damage, and even safety hazards.Insulators are materials that resist the flow of electric current. They are essential components in electrical systems, particularly in transmission lines and substations. The primary purpose of an insulator is to keep the conductive parts of electrical equipment separated from each other and from the ground. When an insulator is functioning correctly, it ensures that electricity flows through the intended path without leakage. However, when an insulator becomes faulty, it can no longer provide this necessary separation.There are several reasons why an insulator might become faulty. Environmental factors, such as extreme weather conditions, pollution, and physical damage, can all contribute to the degradation of insulator materials. For instance, heavy rain or snow can cause moisture to accumulate on insulators, leading to a phenomenon known as flashover, where electricity arcs across the surface of the insulator instead of flowing through the intended circuit. Additionally, contaminants such as dust, dirt, and industrial pollutants can reduce the effectiveness of insulators, making them more susceptible to failure.The implications of a faulty insulator can be severe. In power distribution systems, a failure of an insulator can result in power outages that affect thousands of customers. Such outages not only disrupt daily life but can also lead to significant economic losses for businesses. Furthermore, a faulty insulator can pose serious safety risks. In some cases, it can lead to electrical fires or electrocution, endangering both workers and the general public.To mitigate the risks associated with faulty insulators, regular maintenance and inspection of electrical infrastructure are essential. Utility companies often conduct routine checks to identify potential issues before they escalate into serious problems. This includes visual inspections, testing of insulation resistance, and monitoring environmental conditions that could affect insulator performance. By proactively addressing issues related to faulty insulators, companies can enhance the reliability and safety of their electrical systems.In conclusion, understanding the concept of a faulty insulator is vital for anyone involved in electrical engineering or maintenance. Insulators play a critical role in ensuring the safe and efficient operation of electrical systems. When these insulators fail, the consequences can be far-reaching, affecting both individuals and businesses alike. Therefore, ongoing education and awareness about the importance of maintaining insulators can help prevent the dangers associated with their failure. As we continue to rely on electricity in our daily lives, it is imperative that we prioritize the integrity of our electrical infrastructure, ensuring that faulty insulators do not compromise safety and reliability in our communities.

在现代社会，电力在我们的日常生活中扮演着至关重要的角色。从为我们的家庭供电到运行工业，我们在很大程度上依赖电力系统。然而，与其他系统一样，电力网络也可能会出现问题，其中之一与绝缘体的使用有关。故障绝缘体是指无法履行其防止电流流动到不希望的地方的预期功能的绝缘体。这种故障可能导致严重后果，包括电力中断、设备损坏，甚至安全隐患。绝缘体是抵抗电流流动的材料。它们是电力系统中的重要组成部分，尤其是在输电线路和变电站中。绝缘体的主要目的是保持电气设备的导电部分彼此及与地面隔离。当绝缘体正常工作时，它确保电流沿着预定路径流动而没有泄漏。然而，当绝缘体变得故障时，它便无法再提供这种必要的隔离。绝缘体变得故障的原因有很多。环境因素，例如极端天气条件、污染和物理损坏，都可能导致绝缘材料的降解。例如，暴雨或大雪可能导致绝缘体上积聚水分，从而导致一种现象称为闪络，即电流在绝缘体表面弧形流动，而不是沿着预定电路流动。此外，灰尘、污垢和工业污染物等污染物会降低绝缘体的有效性，使其更容易出现故障。故障绝缘体的影响可能是严重的。在电力分配系统中，绝缘体的故障可能导致影响成千上万用户的停电。这种停电不仅会扰乱日常生活，还可能导致企业的重大经济损失。此外，故障绝缘体可能构成严重的安全风险。在某些情况下，它可能导致电气火灾或触电，危及工人和公众的安全。为了减轻与故障绝缘体相关的风险，定期维护和检查电气基础设施至关重要。公用事业公司通常会进行例行检查，以在问题升级为严重问题之前识别潜在问题。这包括视觉检查、绝缘电阻测试以及监测可能影响绝缘体性能的环境条件。通过主动解决与故障绝缘体相关的问题，公司可以提高其电力系统的可靠性和安全性。总之，理解故障绝缘体的概念对于任何参与电气工程或维护的人来说都是至关重要的。绝缘体在确保电力系统安全高效运行方面发挥着关键作用。当这些绝缘体发生故障时，后果可能是深远的，对个人和企业都产生影响。因此，持续的教育和对维护绝缘体重要性的认识可以帮助防止与其故障相关的危险。随着我们继续在日常生活中依赖电力，优先考虑电力基础设施的完整性，确保故障绝缘体不会妨碍我们社区的安全和可靠性，是至关重要的。